Plate settler cover and method

ABSTRACT

The present invention is directed to a plate settler cover that prevents algae growth, prevents contamination from organic material, and provides structural support for a user who is standing or walking on the plate settler system. The plate settler covers can either float directly on standing water present in the system or may be structurally supported such that the plate cover is positioned above the surface of the water.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.15/254,725, filed Sep. 1, 2016 (now U.S. Pat. No. 9,993,747, issued Jun.12, 2018), which claims priority from U.S. Provisional PatentApplication Ser. No. 62/328,761, filed 28 Apr. 2016, and U.S.Provisional Patent Application Ser. No. 62/213,001, filed 1 Sep. 2015.The entire disclosures of the prior applications are considered to bepart of the disclosure of the accompanying application and are herebyincorporated by reference.

FIELD OF THE INVENTION

This invention relates to the field of plate settler equipment andtechnology.

DESCRIPTION OF THE RELATED ART

Plate settlers are utilized in water treatment facilities as a means forseparating solids from an influent flow of liquid. Influent flowsthrough a basin and rises between the inclined plate settlers. As flowtravels up the plates, solids settle out onto the plate surface. Theclarified water is evenly extracted through the flow control deck, andis distributed into troughs where it flows out of the basin. Sludge thenslides into a quiet zone beneath the plate settlers. Representativeexamples of plate settlers can be found in U.S. Pat. Nos. 5,049,278,7,850,860, and 8,585,896.

While plate settling technology is widely used in water treatmentfacilities, a number of problems arise from their use. For example,plate settlers typically have at least an inch or more of water abovethe top of the plate settlers. When exposed to sunlight, this oftenleads to algae growth. Furthermore, because the plate settlers arecompletely submerged by water yet remain exposed to the air, wintermonths can lead to freezing of the water which prevents water treatmentand could damage the plate settlers. Similarly, because the platesettlers are open to the environment, water fowl can rest on the water'ssurface, leading to the presence of coliform bacteria in the water fromthe bird's feces which results in the need of additional disinfection toinsure public safety. Furthermore, organic matter such as leaves anddebris are prone to falling into the basin resulting in elevated TOC(Total Organic Carbon), affecting the taste and odor and treatability ofthe water.

Thus, there is a need for an apparatus which prevents contamination ofthe fluid in the basin, prevents algae growth, and preferably providesstructural support for a user to stand or walk on.

BRIEF SUMMARY OF THE INVENTION

Consistent with the above-mentioned needs, the present inventionprovides a cover for plate settlers for preventing or vastly reducingalgae growth as well as contamination and freezing of the water on thesurface of plate settler assemblies. Additionally, various embodimentsof the present invention also provide a solid surface for users to standor walk on, on top of the plate settler assemblies.

It is an object of various embodiments of the present invention toprovide a plate settler cover which will block sunlight from the watersurface. In one aspect of various embodiments of the present invention,a cover is provided which prevents sun floc from forming, therebyimproving settling which in turn improves the filter runs. It is anotheraspect of various embodiments of the present invention to provide acover which is insulated and prevents freezing of the water byeliminating the surface to air interface of below freezing temperatures.It is yet another aspect of various embodiments of the present inventionto provide a cover which is able to protect the water from contaminants,including trash which could damage the pumps, water fowl and bird feceswhich may add coliform bacteria to the water, and organic matter,including leaves, which can affect the taste and odor and treatabilityof the water.

It is another object of various embodiments of the present invention toprovide a plate settler cover which can be utilized with other existingplate settler system, including but not limited to those described inU.S. Pat. Nos. 5,049,278, 7,850,860, and 8,585,896, all hereinincorporated by reference.

Another object of various embodiments of the present invention is toreduce operating costs related to plate settlers and water treatment byproviding a plate settler cover. The use of a plate settler coverreduces the rate of dissipation of chlorine in pre-chlorinated watertanks, thereby saving money and eliminating the need for additionalchlorine to maintain proper disinfection. The plate settler coverfurther reduces the evaporation of water which has been treated withexpensive chemicals, thereby eliminating chemical waste. Furthermore,the plate settler covers further reduce or eliminate maintenance andcleaning costs associated with cleaning the tops of the plates, whichtypically must take place weekly.

It is another object of various embodiments of the present invention toprovide a surface overlying a plate settler assembly for maintenanceworkers and engineers to walk on to improve stability and safety andalso to increase their efficiency on the job. In one aspect of variousembodiments of the present invention, the plate settler covers provide awalking surface preferably which allows a maintenance worker to safelyand quickly traverse the plate settlers. In another aspect of variousembodiments of the present invention, the plate settler covers improvethe safety of walking on the top surface of the plate settlers withoutthe covers because the growth of algae and accumulation of slipperysolids typically found in submerged conditions is stopped or reduced.Accordingly, workers can safely walk on the plate settlers without fearof falling or sliding due to algae and accumulation of slippery solidstypically found in submerged conditions. In other embodiments, coversare manufactured to include ribs, divots, mounds or other structuralfeatures to increase the stability of a standing user, to elevate thecovers from the top surface of underlying water, to increase thebuoyancy, rigidity, and conformability of the plate settlers, and tomake the plate covers easier for replacement and retrofitting. Inanother embodiment, the stability may be increased through the use of afriction increasing laminate, coating, film or any other frictionincreasing substance.

It is yet another object of various embodiments of the present inventionto provide a floating plate settler cover. In one embodiment, this isachieved through the use of cell foam (preferably closed-cell foam)attached to the underside of the plate settler cover. In anotherembodiment, the floating is achieved through the use of cell foam withinthe plate cover. In yet another embodiment, the floating is achieved bymanufacturing the plate cover from a material which floats on water,such as air-entrapped plastic structures, inflatable structures, etc.

It is yet another object of various embodiments of the present inventionto provide a plate settler cover that is selectively and securelyinterconnected to the plate settlers. In a preferred embodiment, theplate cover is manufactured with a locking means such that one or moreof the plate settler covers are able to be inserted and/or otherwisesecured to the plate settler, e.g., around its rim, edge, internalplates, etc. In other embodiments, the plate cover is manufactured withsupport legs that connect to the individual plates and providestructural support for the cover above the plate settler assemblies. Inother embodiments, the plate covers may include latch connections,VELCRO® (a hook and loop device) connections, etc., which allow for theplate covers to be selectively interconnected and secured to the platesettler assemblies.

It is yet another object of various embodiments of the present inventionto provide a plate settler cover which is adapted to interconnect withany existing plate settler systems. In preferred embodiments, this isaccomplished by manufacturing the plates in different sizes and/or byhaving covers manufactured such that the various geometries, such as thewidths, lengths, and depths are adjustable to coincide with a particularplate settler system.

It is yet another object of various embodiments of the present inventionto provide a plate settler cover with a surface resistant to rust, algaegrowth, and other damage. In one embodiment, this may be accomplished bymanufacturing the plate cover from a material resistant to algae growthor rust formation. In another embodiment, this may be accomplishedthrough the use of a resistant laminate placed on the surfaces of theplate cover. In yet another embodiment, this may be accomplished throughthe use of a resistant coating applied to the surfaces of the platecover.

It is yet another object of various embodiments of the present inventionto provide a retractable plate settler cover. In one embodiment, thismay be accomplished by placing a plurality of segmented plates on atrack connected to a motor such that the plates may be removed or placedautomatically. In another embodiment, this may be accomplished throughthe use of plates made from a pliable material which may be attached toa roller and stored in a rolled up position and which may be unrolled tocover the plate settlers; in such embodiments, the plates may optionallybe weighted along one or more preselected sides such that the cover isnot affected by wind when unrolled. In another embodiment, this may beaccomplished by including a handle on an exterior surface of a platesettler cover made from a lightweight, pliable material, whereby anoperator may grip the handle to manually pull back the plate settlercover.

It is yet another object of various embodiments of the present inventionto provide a plate settler cover comprising multiple layers and/ormultiple materials. By way of non-limiting example, plate settler coversaccording to the present invention may comprise one or more metalsupports interspersed by a lightweight fabric material, such that theplate settler cover is relatively lightweight but permits a user to walkthereon; such embodiments may permit for the selective replacement ofportions of the fabric material over time due to, for example, weatherdamage.

Similarly, while coverings of various sorts are known in the pool art,such covers are intended to accomplish disparate tasks, such asincreasing safety by preventing children from falling into and drowningin pools; to prevent leaves and other debris from falling into the pool,and to prevent heat loss from pools. The covers employed in the variousembodiments of the present invention, however, are intended to preventthe undesired growth of algae upon the top surfaces of settling tanks,clarifiers, etc. In a preferred embodiment, plate settler assemblies arecovered such that the top most surface is substantially covered in afashion that does not permit a significant amount of sunlight to shineupon the top surface of the water in such assemblies, thus precludingthe conditions for algae growth on such water surface and the underlyingtop-most portion of the settler units.

While various different designs of covers may be employed, somepreferred embodiments have at least one, and preferably at least two ofthe following characteristics: a cover being retractable or removable bya single person, whether via a motor operated system that withdraws andredeploys a cover; a cover that facilitates a person walking across thecover while the cover is on top of the settler plate assemblies, withcertain embodiments also including predetermined sections of the coverthat are transparent enough to permit one walking on top of the cover topeer down into the plate settler assemblies, such transparent panelportions being suitably coated or manufactured so as to be tinted todiscourage algae growth due to light being transmitted there through;and a cover that precludes the accumulation of water on top of the coverthat may otherwise accumulate if rain or snow is present, with certainembodiments including an electric and/or solar-powered heating elementfor melting accumulated snow and ice.

With respect to one particular aspect of certain preferred embodiments,and one which distinguishes the present inventive embodiments fromvarious prior art pool cover art, is directed to a cover that permitsliquid to flow through the cover so that accumulation of water on top ofthe cover is not a problem (as recognized, e.g. in prior art systems,see, U.S. Patent Publication No. 2014/0157508 to LaMont, incorporatedherein by this reference). In other embodiments, when panels areemployed to cover settler assemblies, the end portions of the panels aresuch that they permit liquid to flow through, thus precluding the needfor any type of separate pump to remove accumulated water from thesurfaces of such covering material. In other embodiments the materialcomprising the cover is such that it relatively freely permits water toflow or descend downwardly into the settling assembly below such cover.For example, a mesh fabric-like material may be employed for thispurpose, whether on a roll (such that it can be reversibly retracted anddeployed over the surface of the settler plate assembles) or used on thesurface of panels designed to be placed in abutting fashion to coversubstantial areas, preferably the entire area, of the settler plateassemblies (but preferably not the troughs in-between). As otherwisedescribed herein, the material of the panels or a rolling cover cancomprise various materials that are weather resistant (such as, by wayof non-limiting example, a heavier material disposed along one or moreedges to prevent the cover from being affected by wind), permit a personto walk on top thereof (so that even if a person's weight causes thecover to contact the underlying settler assembles, and in the processforces water out of the way), the cover permits water to pass therethrough, but is constructed of materials that does not facilitate thegrowth of algae on the surface of the water above the settlerassemblies.

Also distinguishing various embodiments of the present invention frompool covers in the prior art is the absence of side contacting elementstypically found on pool covering systems. For example, certainembodiments of the present invention do not employ tracks on each sideof a pool cover that confine the cover in a straight line when it isdeployed or retracted. Instead, in various embodiments, the covers usedto cover settling tank assemblies do not have a track that connects thecover to a side wall in a fashion similar to a pool cover. With respectto alternative structures that can be adapted for use with the presentinvention, U.S. Patent Publication No. 2011/0113546 to Iosim,2015/0152661 to Scullin, 2008/0120771 to Rayner, and 2014/0366260 toBalschick, are incorporated herein by this reference.

The inventive method embodied by various embodiments of the presentinvention includes the following steps:

-   -   i) Providing at least three predetermined dimensioned covers for        a plate settler that are configured to be positioned end-to-end        over the top-most portion of a plate settler;    -   ii) Placing the at least three covers on the top of a plate        settler such that the bottom-most portion of the cover,        preferably around the periphery of each cover, is closest to the        underlying plate settler structure, with the cover having at        least two side edges that descend downward toward the plate        settler assembly and either rest thereon or float above such        assembly;    -   iii) Moving individual covers together such that at least one of        their respective sides abuts another side of an adjacent cover,        wherein the collection of covers acts to substantially encompass        the surface of the plate settler assembly, thus reducing the        incidence of sunlight upon the top surface of water overlying        the plate settler;    -   iv) Maintaining the at least three covers in place over the top        of a plate settler such that sunlight that would otherwise fall        upon the water on the top surface of the plate settler, instead        contacts the exterior surface of the three covers, wherein the        reduction of sunlight impacting the surface of water above the        plate settler reduces the growth of algae that would otherwise        accumulate on the surface of the plate settler.

In preferred embodiments, the covers are adapted to withstand the weightof a human of at least about 120 pounds walking on top thereof withoutdenting or damaging the covers. Further steps of the method in otherembodiments include:

-   -   i) Walking on the surface of one of the covers and removing        another adjacent cover for routine maintenance of the plate        settler assembly.        -   Still other embodiments include the step of providing the            covers over the plate settler assembly when the ambient            temperature is below freezing, so as to preclude freezing of            the surface of water overlying the plate settler assembly.        -   In still other embodiments, instead of having distinct            panels employed and sized to effectively cover the top-most            region of a plate settler assembly, a reversibly rollable            cover is provided over the top portion of a plate settler            assembly, with such cover configured to effectively reduce            the amount of sunlight that impinges upon the surface of            water overlying the plate settlers, and thereby reduces the            amount of algae accumulation that would otherwise occur            without the cover. Preferably the retractable cover does not            employ any side-tracks (which conventional pool covers            employ), but use of tracks or other guidance mechanisms can            be employed to properly guide the conveyance of the plate            settler cover over the tip portion of the assembly.    -   ii) Such a rolling, retractable cover is constructed of material        that preferably permits water to flow through, such a mesh        fabric material, and thus, problems experienced by traditional        pool covers involving the need to evacuate water that builds up        on the surface of such covers is avoided. Indeed, when plate        covers are employed, the edges of the plates have sufficient        room between the covers so that rain or snow can readily fall        down into the plate settler assembly. In various embodiments,        the covers can be retrofitted to achieve certain desired        characteristics, such as addition of buoyancy members (closed        cell foam, inflatable or inflated buoys', etc. to achieve        floating covers; the provision of adjustable depending members        such that contact with underlying plate settlers can be achieved        at predetermined heights above the water level above the plate        settlers, etc. The material comprising the covers, as well as        the color thereof, can be selected for various purposes, such as        having them colored black to absorb more heat and thus warm the        underlying water; or constructed of a bubble wrap-like material        so as to conserve the temperature of the water and/or to        increase the temperature thereof so as to avoid ice or snow        buildup, etc.

In yet another embodiment of the present invention, the plate settlercovers may be semicylindrical. Further, these semicylindrical covers maybe retractable.

In yet another embodiment of the present invention, the plate settlercovers may be capable of rolling up for storage.

One of skill in the art will appreciate the various structures andassociated methods rendered possible via the guidance provided herein asto how to build, maintain and construct various embodiments of thepresent invention to achieve desired functionality, such as thereduction of algae growth in conventionally open topped settler plateassemblies; the reduction of ice/snow build up on the top surface ofplate settler assemblies, and the ability to construct plate settlerssuch that individuals and machinery can be more easily and readily movedacross the surface of plate settlers for maintenance or inspectionpurposes.

For purposes of further disclosure and to comply with applicable writtendescription and enablement requirements, the following referencesgenerally discuss systems and methods related to plate settlers, and arehereby incorporated by reference in their entireties:

U.S. Pat. No. 7,314,572, entitled “Methods of and apparatus forlow-angle-tray settling with multi-zone configuration,” issued 1 Jan.2008 to Meurer (“Meurer”).

U.S. Pat. No. 7,850,860, entitled “Plate settler with angular supportmembers,” issued 14 Dec. 2010 to Dissinger et al. (“Dissinger”).

U.S. Pat. No. 8,317,036, entitled “Apparatus and method for removingimpurities from water or wastewater,” issued 27 Nov. 2012 to Roberts(“Roberts I”).

U.S. Pat. No. 8,454,841, entitled “Method of filtering water orwastewater,” issued 4 Jun. 2013 to Roberts (“Roberts II”).

Chinese Patent Application Publication 103372336, entitled “Two-stagewater inlet weir plate,” published 30 Oct. 2013 to Ju (“Ju”).

U.S. Pat. No. 8,652,328, entitled “Apparatus for filtering water orwastewater,” issued 18 Feb. 2014 to Roberts (“Roberts III”).

U.S. Patent Application Publication 2014/0131262, entitled “Apparatusand method for removing impurities from water or wastewater,” published15 May 2014 to Roberts (“Roberts IV”).

U.S. Pat. No. 8,889,015, entitled “Method of installing an air scoursystem into a filter bed,” issued 18 Nov. 2014 to Roberts et al.(“Roberts V”).

U.S. Patent Application Publication 2015/0068988, entitled “Apparatusfor removing impurities from water or wastewater and a method ofinstalling a fluid distribution system therein,” published 12 Mar. 2015to Roberts (“Roberts VI”).

U.S. Patent Application Publication 2015/0068989, entitled “Apparatusfor removing impurities from water or wastewater and a method ofinstalling a fluid distribution system therein,” published 12 Mar. 2015to Roberts et al. (“Roberts VII”).

U.S. Pat. No. 9,327,999, entitled “Compact inclined plate sedimentationdevices and methods,” issued 3 May 2016 to Philbrook (“Philbrook”).

Further description of advantages, benefits, and patentable aspects ofthe present disclosure will become evident from the accompanyingdrawings and description herein below. All novel aspects of thedisclosure, whether mentioned explicitly in this Summary section or not,are considered subject matter for patent protection either singly or incombination with other aspects of this disclosure. Accordingly, suchnovel aspects disclosed herein below and/or in the drawings that may beomitted from, or less than fully described in, this Summary section arefully incorporated herein by reference into this Summary. In particular,all (any) claims of the Claims section herein below are fullyincorporated herein by reference into this Summary section.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an embodiment of a plate settler system of the prior art;

FIG. 2 is an elevated perspective view of one embodiment of the presentinvention showing how individual plate covers are positioned on the topof a plate settler;

FIG. 3 is an elevated perspective view of one embodiment of the presentinvention showing plate covers resting flush against an upper rib of aplate settler;

FIG. 4 is a cross-sectional side view of one embodiment of the presentinvention showing a floating plate cover;

FIG. 5 is a cross-sectional side view of one embodiment of the presentinvention showing a fixed plate cover;

FIG. 6 is a cross-sectional side view of one embodiment of the presentinvention showing a fixed trough cover and fixed plate cover;

FIG. 7 is an elevated perspective view of one embodiment of the presentinvention showing a rollable plate cover;

FIG. 8 is an elevated perspective view of one embodiment of the presentinvention showing a plurality of domed individual plate covers; and

FIG. 9 is an elevated perspective view of one embodiment of the presentinvention showing a retractable domed plate cover.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 shows a plate settler system 1 of the prior art without a cover.As shown, without a cover, the plate settler system 1 is open to theenvironment. As a result, algae grow on the surface of the platesettlers 3, leading to a slippery, thin film of algae on the surface ofthe plate settlers 3, causing myriad problems for water treatmentfacilities. For example, maintenance workers, who often need to walk onthe plate settlers 3, are exposed to unsafe walking surfaces whichincrease the risk of injury. As a result, cleaners often must be hiredto remove the algae, leading to additional costs. Due to the rate ofgrowth of algae, it is often the case that by the time all of the algaeare successfully removed, more algae has already begun to grow. Thus,cleaners are needed on at least a weekly basis, if not more often.

FIG. 2 shows a plate settler system 1 utilizing the plate settler covers2 of the present invention. In one embodiment, the plate settler covers2 are segmented such that four covers 2 are utilized for each platesettler 3. However, one having skill in the art will recognize that theplate covers 2 could be a variety of sizes such that each plate settler3 utilizes one, two, three, five, six, or any number of covers 2 basedon the needs of the user and the design of the plate settler system 1being utilized.

In a preferred embodiment, the plate settler covers 2 are made of T-304stainless steel, 22 gauge with closed cell foam adhered to theunderside. However, one having skill in the art will recognize thecovers 2 may be made of any number of materials including, but notlimited to, metal, aluminum, polymer, plastic, wood, glass, carbonfiber, and cement. In addition, the upper surface of the plate cover 2may be smooth or may be designed to improve friction between the platecover 2 and the user walking on the plate cover 2. For example, theplate cover 2 may include ribbing, divots, mounds, or other structuresdesigned to improve the friction. Alternatively, the plate cover 2 mayinclude a friction increasing laminate, coating, or paint which preventsslipping. Additionally, one skilled in the art will further recognizethat the plate cover 2 may be provided without cell foam, or that thecell foam may be adhered to the cover 2 in a variety of ways, includingbeing placed inside the plate. Lastly, while cell foam is utilized in apreferred embodiment, one having skill in the art will recognize thatany suitable floatation material may be utilized including, but notlimited to, the use of air bags or making the plate cover 2 itself froma floating material.

As further shown in FIG. 2, each plate cover 2 selectively interconnectswith the plate settler 3, such that the cover 2 rests in a cavity 4between the top of the plate settlers 3 and an upper rim 5. In apreferred embodiment, the covers 2 interconnect to the system 1 byresting in the cavity 4 such that the edges of the plate 2 are flushagainst the upper rim 5 and the bottom of the plate 2 is in contact withthe plate settler 3. Further, in this preferred embodiment, the platecover 2 floats on the surface of the water above the plate settlers 3.However, one skilled in the arts will recognize that a variety ofinterconnecting means can be utilized including snapping into place,sliding into a track, locking by a locking mechanism, and any otherconventional or unconventional means of securing the plate covers 2.Once in place, the plate covers 2 cover the entirety of the platesettlers 3.

FIG. 3 shows another embodiment of the present invention. As shown, theplate settler system 1 further has a trough 6, which allows the treatedwater to flow out of the basin. As influent flows through the basin andrises between the plate settlers 3, solids settle out onto the platesettler 3 surfaces. The clarified water is then evenly extracted througha flow control deck 7, and is distributed into the troughs 6 where itflows out of the basin.

FIGS. 4-6 show various embodiments of the present invention in which thetrough 6 of the plate settler system 1 is elevated above the platesettlers 3. As shown in FIG. 4, plate covers 2 may be utilized whichfloat on the surface of the water. In a preferred embodiment, the platesettler covers 2 are made of T-304 stainless steel, 22 gauge with closedcell foam adhered to the underside. However, one having skill in the artwill recognize the covers 2 may be made of any number of materialsincluding, but not limited to, metal, aluminum, polymer, plastic, wood,glass, carbon fiber, and cement. Additionally, one skilled in the artwill further recognize that the plate cover 2 may be provided withoutcell foam, or that the cell foam may be adhered to the cover 2 in avariety of ways, including being placed inside the plate. Lastly, whilecell foam is utilized in a preferred embodiment, one having skill in theart will recognize that any suitable floatation material may be utilizedincluding, but not limited to, the use of air bags or making the platecover 2 itself from a floating material.

Additionally, weir plates 7 are utilized which prevent the cover 2 frommoving from side to side. While weir plates 7 are utilized in apreferred embodiment, one having skill in the art will recognize thatany conventional or unconventional support structures may be utilized tominimize the side to side movement of the plate covers 2.

FIG. 5 shows another embodiment of the plate settler system 1 of FIG. 4.In this embodiment, the plate cover 2 is fixed, rather than being freeto float. In a preferred embodiment, the plate settler covers 2 are madeof T-304 stainless steel, 22 gauge. However, one having skill in the artwill recognize the covers 2 may be made of any number of materialsincluding, but not limited to, metal, aluminum, polymer, plastic, wood,glass, carbon fiber, and cement. The plates are fixed through the use ofweir plates 7. The cover 2 sits on top of the weir plates 7, preventingthe cover 2 from floating. While weir plates 7 are used in a preferredembodiment, one having skill in the art will recognize that anyconventional or unconventional support structures may be utilized forsupporting the plate cover 2.

FIG. 6 shows yet another embodiment of the plate settler system 1 ofFIG. 4. As shown, the cover 2 of this embodiment covers both the platesettlers 3 and the trough 6. Further, the plate cover 2 of thisembodiment is likewise fixed. The plates are fixed through the use ofweir plates 7. The cover 2 sits on top of the weir plates 7, preventingthe cover 2 from floating. While weir plates 7 are used in a preferredembodiment, one having skill in the art will recognize that anyconventional or unconventional support structures may be utilized forsupporting the plate cover 2.

FIG. 7 shows a plate settler system 1 utilizing another embodiment ofthe plate settler covers 2 of the present invention. As shown, the cover2 may be configured to roll up, such that it can be stowed away at oneend of the plate settler system 1. Accordingly, the plate cover 2 may bemade of a material which is elastic or deformable, such as tarp, variouspolymers, vinyls, etc. Furthermore, the cover itself may be comprised ofsegments of rigid material such as metal, plastic, wood, variouspolymers, etc. These segments may then be interconnected via an elasticmaterial which would allow the cover to roll up be stored.

FIG. 8 shows a plate settler system 1 utilizing another embodiment ofthe plate settler covers 2 of the present invention. As shown, thecovers 2 may be semicylindrical in shape. However, one having skill inthe art will recognize that a plurality of shapes may be utilized,including rectangular, triangular, cubical, etc. Further, the covers 2may segmented along their width and be made of a material which iscompressible, such that the segments of the cover 2 can collapse downinto a storage area. Alternatively, the compressibility of the covers 2may be achieved by utilizing segmented covers 2. The segments would thenbe allowed to fold in on themselves, reducing their size and allowingthem to be stored. Alternatively, the segments could be attached in atelescopic manner, such that each segment slides underneath the nextuntil the segments are in a stored position having the width of onesegment.

FIG. 9 shows a plate settler system 1 utilizing another embodiment ofthe plate settler covers 2 of the present invention. As shown, thecovers 2 may be semicylindrical in shape. However, one having skill inthe art will recognize that a plurality of shapes may be utilized,including rectangular, triangular, cubical, etc. Further, the covers 2may be segmented radially, such that the segments of the cover 2 canrotate into a storage area located on a longitudinal edge of the platesettler system 1. The segments may also be made of a compressiblematerial, such that the segments are able to fold in on themselves,reducing their size and allowing them to be stored. Alternatively, thesegments could be attached in a telescopic manner, such that eachsegment slides underneath the next until the segments are in a storedposition.

The foregoing discussion of the invention has been presented forpurposes of illustration and description. Further, the description isnot intended to limit the invention to the form disclosed herein.Consequently, variation and modification commensurate with the aboveteachings, within the skill and knowledge of the relevant art, arewithin the scope of the present invention. The embodiment describedhereinabove is further intended to explain the best mode presently knownof practicing the invention and to enable others skilled in the art toutilize the invention as such, or in other embodiments, and with thevarious modifications required by their particular application or usesof the invention.

The invention claimed is:
 1. A method for preventing contamination ofliquid in a plate settler, comprising: a) providing at least one flatcover that is configured to cover a plate settler, the at least onecover configured to be positioned over a top portion of the platesettler to cover the entire plate settler, wherein said at least onecover comprises stainless steel; b) placing the at least one cover overthe top portion of the plate settler; c) moving the at least one coversuch that the at least one cover covers said plate settler, whereinsunlight that would otherwise fall upon the liquid on the top surface ofthe plate settler, instead contacts an exterior surface of the at leastone cover; d) maintaining the at least one cover in place over the topportion of the plate settler, above the liquid, such that substantiallyall sunlight that would otherwise fall on the surface of the liquid isinstead reflected or absorbed by an exterior surface of the at least onecover; and wherein the at least one cover prevents a contaminant fromco-mingling with the liquid, the contaminant comprising at least one oftrash, bird feces, leaves and organic matter; and wherein the at leastone cover, when stepped on by a human, support a weight of a humanoperator standing or walking on an exterior surface of the at least onecover without damaging the at least one cover, wherein said humanoperator weighs at least 120 pounds; and securely interconnecting the atleast one cover to the plate settler around an edge of the at least onecover.
 2. The method of claim 1, wherein said step of securelyinterconnecting the at least one cover to the plate settler is achievedby employing an attachment means.
 3. The method as set forth in claim 1,wherein the at least one cover comprises a material, a laminate orcoating that is resistant to at least one of algae growth and rust. 4.The method as set forth in claim 1, wherein said step of securelyinterconnecting the at least one cover to the plate settler around anedge of the at least one cover is accomplished with one of a lock, alatch, or a hook-and-loop fastener.
 5. The method as set forth in claim1, further comprising interconnecting the at least one cover to theplate settler to provide structural support for the at least one coverabove the plate settler.
 6. The method as set forth in claim 1, whereinthe at least one cover sits on top of weir plates.
 7. The method as setforth in claim 1, wherein the at least one cover covers both the platesettler and a trough.
 8. The method as set forth in claim 1, wherein theat least one cover is selectively interconnected and secured to theplate settler.
 9. The method as set forth in claim 1, wherein the atleast one cover includes a stability aid comprising at least one of: afriction-increasing laminate, a friction-increasing coating, and afriction-increasing film.
 10. A method for preventing contamination ofliquid in a plate settler, comprising: a) providing at least one flatcover that is configured to cover a plate settler, the at least onecover configured to be positioned over a top portion of the platesettler to cover the entire plate settler, wherein said at least onecover comprises stainless steel; b) placing the at least one cover overthe top portion of the plate settler; c) moving the at least one coversuch that the at least one cover covers said plate settler, whereinsunlight that would otherwise fall upon the liquid on the top surface ofthe plate settler, instead contacts an exterior surface of the at leastone cover; d) maintaining the at least one cover in place over the topportion of the plate settler, above the liquid, such that substantiallyall sunlight that would otherwise fall on the surface of the liquid isinstead reflected or absorbed by an exterior surface of the at least onecover; and wherein the at least one cover prevents a contaminant fromco-mingling with the liquid, the contaminant comprising at least one oftrash, bird feces, leaves and organic matter; and wherein the at leastone cover, when stepped on by a human, support a weight of a humanoperator standing or walking on an exterior surface of the at least onecover without damaging the at least one cover, wherein said humanoperator weighs at least 120 pounds; and securely interconnecting the atleast one cover to the plate settler around an edge of the at least onecover; wherein the at least one cover is selectively interconnected andsecured to the plate settler; and wherein at least two side edges of theat least one cover descend downward toward the plate settler and arepositioned over the top portion of the plate settler.
 11. The method asset forth in claim 10, wherein the at least one cover sits on top ofweir plates.
 12. The method as set forth in claim 10, wherein the atleast one cover covers both the plate settler and a trough.
 13. Themethod as set forth in claim 10, wherein the at least one cover includesa stability aid comprising a friction-increasing laminate.
 14. Themethod as set forth in claim 10, wherein the at least one cover includesa stability aid comprising a friction-increasing coating.
 15. A methodfor preventing contamination of liquid in a plate settler, comprising:a) providing at least one flat cover that is configured to cover a platesettler, the at least one cover configured to be positioned over a topportion of the plate settler to cover the entire plate settler, whereinsaid at least one cover comprises stainless steel; b) placing the atleast one cover over the top portion of the plate settler; c) moving theat least one cover such that the at least one cover covers said platesettler, wherein sunlight that would otherwise fall upon the liquid onthe top surface of the plate settler, instead contacts an exteriorsurface of the at least one cover; d) maintaining the at least one coverin place over the top portion of the plate settler, above the liquid,such that substantially all sunlight that would otherwise fall on thesurface of the liquid is instead reflected or absorbed by an exteriorsurface of the at least one cover; and wherein the at least one coverprevents a contaminant from co-mingling with the liquid, the contaminantcomprising at least one of trash, bird feces, leaves and organic matter;and wherein the at least one cover, when stepped on by a human, supporta weight of a human operator standing or walking on an exterior surfaceof the at least one cover without damaging the at least one cover,wherein said human operator weighs at least 120 pounds; and securelyinterconnecting the at least one cover to the plate settler around anedge of the at least one cover; wherein the at least one cover comprisesa material, a laminate or coating that is resistant to at least one ofalgae growth and rust; and wherein said step of securely interconnectingthe at least one cover to the plate settler around an edge of the atleast one cover is accomplished with one of a lock, a latch, or ahook-and-loop fastener.
 16. The method as set forth in claim 15, whereinthe at least one cover sits on top of weir plates.
 17. The method as setforth in claim 15, wherein the at least one cover covers both the platesettler and a trough.
 18. The method as set forth in claim 15, whereinthe at least one cover includes a stability aid comprising afriction-increasing laminate.
 19. The method as set forth in claim 15,wherein the at least one cover includes a stability aid comprising afriction-increasing coating.
 20. The method as set forth in claim 15,wherein the at least one cover includes a stability aid comprising afriction-increasing film.